DE3321653C2 - - Google Patents

Description

The invention relates to a device for exposing a photographic film according to the preamble of the patent saying 1.

A device of the type mentioned is from US-PS 41 50 882 known. This device is used for photographing Identification marks on the edge of the film.

From DE-OS 23 43 582 is a device for recording known from brands on a film that have a feed mechanism for the film and one between a light source and one Exposure area arranged, reducing lens arrangement having.

From the published Japanese utility model application 56-16 589 it is known to apply identification marks on the edge of a film different brands and several lens systems to create Images of the respective brands on the edge of the film as well as an An number of light-emitting elements for illuminating each  brands.

The object of the invention is a device of the entry ge to specify the way in which the film is to be photogra branding brands slightly according to the film type and the film size can be moved.

This task is carried out in the characterizing part of the Features specified claim 1 solved.

The device according to the invention advantageously enables a light photograph of any desired brand on the Filmstrip. The optional excitation of the light-emitting Elements allows for easy and quick viewing under different brands, corresponding to different film types or the like. To be photographed, whereby a considerable Obtain increased productivity in film making becomes. The device according to the invention is particularly in the case a varied production with small quantities, in which Brands need to be changed frequently, particularly effectively.

The device according to the invention is not only for the film production and packaging processes as well as a sortie application process prior to the treatment of exposed films, but also in procedures for applying the customer name, the Date, the type of imprint, the ordered number of imprints in a processing laboratory.

The device according to the invention also has the advantage that the Marks are photographed with constant exposure can and that it can be kept very easily instant.

Preferred and advantageous embodiments of the fiction moderate device emerge from the subclaims.

In particular, has an embodiment according to claim 3, 9 or 10 the advantage that a warning device triggers an alarm if  an abnormal current through a light emitting element is provided. Light emitting elements that have no light or emit an extremely large amount of light can be checked and then be replaced so that the photographing of the Mar ken is ensured with constant exposure.

The invention is illustrated by the figures in the following  Description explained in more detail from which before parts and properties of the invention result. Of the Shows figures

Fig. 1 is a block diagram of a preferred execution of an inventive device,

Fig. 2 is a plan view of a number of light emitting elements pointing device having An,

Fig. 3 shows waveforms of signals for devices of the apparatus according to Fig. 1,

Fig. 4 is a plan view of a keyboard device for displaying marks,

Fig. 5 is a detailed circuit diagram of the display device is operated in a dynamic mode,

Fig. 6 waveforms of signals in dynamic mode operation,

Fig. 7 is a detailed circuit diagram of the display device in a static mode,

Fig. 8 waveforms of operating signals in static operation, and

Fig. 9 is a block diagram of part of a circuit for detecting the abnormality of a current.

According to FIG. 1, a photographic film 11 is advanced by a conveyor 12, with which a position sensor is connected directly 16 in the direction of an arrow. The position sensor 16 generates signals that are proportional to the feed length of the film 11 , while a signal generator 20 generates pulse signals at the start of each exposure cycle. An adjustable setting circuit 19 generates various brands, for example letters, numbers, symbols and characters, which are to be photographed on the film 11 as a latent image according to optionally operating keys. A processing circuit 17 in the form of a main controller has a memory in which information is stored which includes the name of the film manufacturer, the date of production of the film, the type of film, the size of the film, the emulsion number of the film or the like , and which, in conjunction with digital signals from the setting circuit 19 , signals from the position sensor 16 and the start signals from the signal generator 20, generates signals for displaying a manufactured mark on a display device 14 containing a number of light-emitting elements 23 . The signals from the processing circuit 17 are an operating means fed 15 which temporarily operates the display device 14, called a mark anzuzei on it. The image of the displayed mark is on the conveyor 12 continuously move forward in the form of a rotary drum raw film strip by a zooming lens assembly 13 focused and then photographed on the film 11 . The operating unit 15 has a comparator, for example a winding comparator, which supplies the processing device 17 with a signal (h) in order to cause a warning device 18 to emit an anamaly alarm when the comparator detects an operating current that is either higher than a predetermined one Current level or lower than another predetermined current level.

FIG. 2 shows an embodiment of the display device 14 , which comprises 35 light-emitting elements 23 which emit red, blue or green light, for example in the form of LEDs, which are arranged in a 5 × 7 matrix. Another number of light-emitting elements 23 can also be used, for example 48, 56 or 64 , elements 23 , which can be arranged in a 6 × 8, 7 × 8 or 8 × 8 matrix. On the other hand, a single line of light emitting elements 23 can be used to display a one-dimensional mark each time the film 11 has been advanced by a constant length.

Referring to FIG. 3, the wave forms of signals for the device of the apparatus according to Fig. 1, the processing circuit 17 generates code signals (s), which provide letters, numbers symbols, characters or the like. Constitute.

From Fig. 3 it can be seen that the waveforms of the signals for the devices of the device of Fig. 1, in particular the code signals (e) from the processing circuit 17 corresponding to parallel signals, which are selectively generated by the adjustable setting circuit 19 , in a well-defined time Tuning to signals (a) and (b) from the signal generator 20 and the position sensor 16 are generated. The processing circuit 17 also generates clock signals (d) , under the influence of which the time periods during which the elements 23 emit light are controlled and the code signals (e) are supplied to the operating device 15 , whereupon the display unit 14 under the influence of the clock signals (i.e. ) Drive currents (f) are supplied which excite the elements 23 so that they emit light.

As the signal generator 20 , a delay generating pulse generating circuit for generating synchronization pulses (a) under the influence of a trigger signal from an external unit, for example a film cutter or the like. The synchronization pulse generation takes place, for example, when a specified time has passed since the trigger signal was output. As a position sensor 16, a pulse generator, a resolver, a perforation or other posi tion can be used signal generators.

TheFig. 4 shows an embodiment of a keyboard used setting up the adjustable setting circuit19th. A switching device which can be actuated in accordance with the type of film192, a switching device which can be actuated in accordance with the length of the film(EX) 193, and an operable according to the emulsion number of the film Switching device(EM )194 will be treated according to the Film optionally pressed and then a change or Changeover start switch191 pressed, the signals he testifies that cause the display unit14  indicates a desired brand that on the film11 as a latent image to photo is graphing. The date the film was made has been made possible by the adjustable setting circuit19th also set will.

In the case of a different type of film, for example at a different film speed, the exposure becomes different if the display device 14 emits light in an unchanged time period. Accordingly, the device according to the invention is designed so that the time period during which the display device emits light can be changed accordingly to the different film speeds, so that a certain exposure is obtained. That is, by changing the pulse width of the signal (d) in Fig. 3, the value "a" of signals (f) for column arrays of luminous elements 23 can be changed, which results in a different period of time during which the display device 14 emits light. The change in the width of the signals (d) is carried out by the processing circuits 17 under the influence of the signals (c) from the adjustable setting circuit 19 .

According to FIG. 5, the device comprises a circuit arrangement of the display 14 shows the number of elements 23, which are operated in a dynamic mode, the elements 23 in a matrix having 7 columns and 5 rows of sorted and each at one end to the bus the columns and rows are connected.

Fig. 6 shows the waveforms of drive signals of the display device 14 in dynamic operation. The processing circuit starts counting pulses from the position sensor 16 at the time when the processing circuit 17 receives a synchronization signal (a) . At the time the processing circuit 17 has counted a given number T ₁ of pulses, a series of signals are given to the operating device 15 which cause drive signals (i) to (m) to be generated in succession. As a result, the elements 23 of the display device 14 are optionally temporarily excited to emit light. Thereafter, at a time when the processing circuit 17 has counted another given number T _{2 of} the pulses, the display device 14 is operated to selectively temporarily excite the elements LEDs 23 so that they emit light.

Each time the processing circuit 17 counts a given number of pulse signals, the display device 14 is driven, thereby displaying a desired mark and then photographing the displayed mark on the film 11 as a latent image. FIGS. 6, 5 and 3, the signals (i) cause to (m) for the bus lines of the rows, that the elements 23 emit temporally light, and on the other hand determine the signals (s) for the bus lines of the line pattern of on the film to be photographed.

Fig. 7 shows a circuit arrangement of the display device 14 , which is operated by a static operation. Each element 23 in the form of an LED is connected at its cathode to a common bus line, while drive signals according to FIG. 8 are supplied to its anode.

A circuit according to FIG. 9 for determining the anomaly of a current causes all elements 23 to emit light in succession at certain intervals in order to test the current via the respective elements 23 between an upper and lower control limit with a comparator arrangement 21 , which is provided in the operating device 15 . If the comparator arrangement 21 detects a current which exceeds the upper and lower control limits, it supplies the warning device 18 according to FIG. 1 with a signal through the processing circuit 17 , so that the warning device 18 gives an alarm if there is a fault in the luminous elements. The warning device 18 in FIG. 1 comprises a lamp or a buzzer that can be switched off manually.

Claims (10)

1. Device for exposing a photographic film ( 11 ) with marks by means of a number of light-emitting elements ( 23 ) arranged in a pattern, optionally to be excited, characterized by a conveying device ( 12 ) for transporting the film ( 11 ) through an exposure area, by a lens arrangement ( 13 ) between the light-emitting elements ( 23 ) and the exposure area, by a position sensor ( 16 ) detecting the transport of the film ( 11 ) through the exposure area, by a controllable signal generator ( 20 ) for triggering the excitation of the light emitting elements ( 23 ), by an adjustable setting circuit ( 19 ) for selecting the brands with which the film ( 11 ) is to be exposed and by one of the position sensor ( 16 ), the signal generator ( 20 ) and the setting circuit ( 19 ) controlled processing circuit ( 17 ) for exciting a driver circuit ( Fig. 5 or Fig. 7) for the light emitting end elements ( 23 ). 2. Device according to claim 1, characterized in that the light-emitting elements ( 23 ) are arranged in the form of a matrix. 3. Device according to one of the preceding claims, characterized by a current through the light-emitting elements ( 23 ) monitoring comparator circuit ( 21 ) which triggers a warning device ( 18 ) when an upper or lower limit of the current is exceeded. 4. Device according to one of the preceding claims, characterized in that the light-emitting elements ( 23 ) are LEDs. 5. Device according to one of the preceding claims, characterized in that the setting circuit ( 19 ) an according to the type of film ( 11 ) actuatable switching device ( 192 ), a corresponding to the length of the film ( 11 ) actuatable switching device ( 193 ) and a corresponding has the emulsion number of the film ( 11 ) operable switching device ( 194 ). 6. Device according to one of the preceding claims, characterized in that the position sensor ( 16 ) has a speed encoder rotating simultaneously with the feed of the film ( 11 ). 7. Device according to one of the preceding claims, characterized in that the light-emitting ele elements ( 23 ) is assigned a dynamic driver circuit ( Fig. 5). 8. Device according to one of claims 1 to 6, characterized in that the photoelectric elements ( 23 ) is assigned a static driver circuit ( Fig. 7). 9. Device according to one of the preceding claims, characterized in that the warning device ( 18 ) contains a warning lamp. 10. Device according to one of the preceding claims, characterized in that the warning device ( 18 ) contains a warning buzzer.